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If you have a multi-year model where the data range for different parts of the model varies, (for example, history covering two years, current year forecast, and three planning years) then Time Ranges should be able to deliver significant gains in terms of model size and performance. But, before you rush headlong into implementing Time Ranges across all of your models, let me share a few considerations to ensure you maximize the value of the feature and avoid any unwanted pitfalls. Naming Convention Time Ranges As with all Anaplan models, there is no set naming convention, however, we do advocate consistency and simplicity. As with lists and modules, short names are good. I like to describe the naming convention thus—as short as practical—meaning you need to understand what it means, but don’t write an essay! We recommend using the following convention: FYyy-FYyy. For example, FY16-FY18, or FY18 for a single year Time Ranges available are from 1981 to 2079, so the “19” or the “20” prefixes are not strictly necessary. Keeping the name as short as this has a couple of advantages: It has a clear indication of the boundaries for the Time Range It is short enough to see the name of the Time Range in the module and line items blueprint The aggregations available for Time Ranges can differ for each Time Range and also differ from the main model calendar. If you take advantage of this and have aggregations that differ from the model calendar, you should add a suffix to the description. For example: FY16-FY19 Q (to signify Quarter totals) FY16-FY19 QHY (Quarter and Half Year totals) FY16-FY19 HY (Half Year totals only) etc. Time Ranges are Static Time Ranges can span from 1981 to 2079. As a result, they can exist entirely outside, within, or overlap the model calendar. This means that there may likely be some additional manual maintenance to perform when the year changes. Let’s review a simple example: Assume the model calendar is FY18 with two previous years and two future years; the model calendar spans FY16-FY20 We have set up Time Ranges for historic data (FY16-FY17) and plan data (FY19-FY20) We also have modules that use the model calendar to pull all of the history, forecast, and plan data together, as seen below: At year end when we “roll over the model,” we amend the model calendar simply by amending the current year. What we have now is as follows: You see that the history and plan Time Ranges are now out of sync with the model calendar. How you change the history Time Range will depend on how much historical data you need or want to keep. Assuming you don’t need more than two year’s history, the Time Range should be re-named FY17-FY18 and the start period advanced to FY17 (from FY16). Similarly, the plan Time Range should be renamed FY20-FY21 and advanced to FY20 (from FY19). FY18 is then available for the history to be populated and FY21 is available for plan data entry. Time Ranges Pitfalls Potential Data Loss Time Ranges can bring massive space and calculation savings to your model(s), but be careful. In our example above, changing the Start Period of FY16-FY17 to FY17 would result in the data for FY16 being deleted for all line items using FY16-FY17 as a Time Range. Before you implement a Time Range that is shorter or lies outside the current model calendar, and especially when implementing Time Ranges for the first time, ensure that the current data stored in the model is not needed. If in doubt, do some or all of the suggestions below: Export out the data to a file Copy the existing data on the line item(s) to other line items that are using the model calendar Back up the entire model Formula References The majority of the formula will update automatically when updating Time Ranges. However, if you have any hard-coded SELECT statements referencing years or months within the Time Range, you will have to amend or remove the formula before amending the Time Range. Hard-coded SELECT statements go against best practice for exactly this reason; they cause additional maintenance. We recommend replacing the SELECT with a LOOKUP formula from a Time Settings module. There are other examples where the formula may need to be removed/amended before the Time Range can be adjusted. See the Anapedia documentation for more details. When to use the Model Calendar This is a good question and one that we at Anaplan pondered during the development of the feature; Do Time Ranges make the model calendar redundant? Well, I think the answer is “no,” but as with so many constructs in Anaplan, the answer probably is, “it depends!” For me, a big advantage of using the model calendar is that it is dynamic for the current year and the +/- years on either side. Change the current year and the model updates automatically along with any filters and calculations you have set up to reference current year periods, historical periods, future periods, etc.  (You are using a central time settings module, aren’t you??) Time ranges don’t have that dynamism, so any changes to the year will need to be made for each Time Range. So, our advice before implementing Time Ranges for the first time is to review each Module and: Assess the scope of the calculations Think about the reduction Time Ranges will give in terms of space and calculation savings, but compare that with annual maintenance. For example: If you have a two-year model, with one history year (FY17) and the current year (FY18), you could set up a Time Range spanning one year for FY17 and another one year Time Range for FY18 and use these for the respective data sets. However, this would mean each year both Time Ranges would need to be updated. We advocate building models logically, so it is likely that you will have groups of modules where Time Ranges will fall naturally. The majority of the modules should reflect the model calendar. Once Time Ranges are implemented, it may be that you can reduce the scope of the model calendar. If you have a potential Time Range that reflects either the current or future model calendar, leave the timescale as the default for those modules and line items; why make extra work? SELECT Statements As outlined above, we don’t advocate hard-coded time selects of the majority of time items because of the negative impact on maintenance (the exceptions being All Periods, YTD, YTG, and CurrentPeriod). When implementing Time Ranges for the first time, take the opportunity to review the line item formula with time selects. These formulae can be replaced with lookups using a Time Settings module. Application Lifecycle Management (ALM) Considerations As with the majority of the Time settings, Time Ranges are treated as structural data. If you are using ALM, all of the changes must be made in the Development model and synchronized to Production. This gives increased importance to refer to the pitfalls noted above to ensure data is not inadvertently deleted. Best of luck! Refer to the Anapedia documentation for more detail. Please ask if you have any further questions and let us and your fellow Anaplanners know of the impact Time Ranges have had on your model(s).
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Thinking through the results of a modeling decision is a key part of ensuring good model performance—in other words, making sure the calculation engine isn’t overtaxed. This article highlights some ideas for how to lessen the load on the calculation engine. Formulas should be simple; a formula that is nested, or uses multiple combinations, uses valuable processing time. Writing a long, involved formula makes the engine work hard. Seconds count when the user is staring at the screen. Simple is better. Breaking up formulas and using other options helps keep processing speeds fast. You must keep a balance when using these techniques in your models, so the guidance is as follows: Break up the most commonly changed formula Break up the most complex formula Break up any formula you can’t explain the purpose of in one sentence Formulas with many calculated components The structure of a formula can have a significant bearing on the amount of calculation that happens when inputs in the model are changed. Consider the following example of a calculation for the Total Profit in an application. There are five elements that make up the calculation: Product Sales, Service Sales, Cost of Goods Sold (COGS), Operating Expenditure (Op EX), and Rent and Utilities. Each of the different elements is calculated in a separate module. A reporting module pulls the results together into the Total Profit line item, which is calculated using the formula shown below. What happens when one of the components of COGS changes? Since all the source components are included in the formula, when anything within any of the components changes, this formula is recalculated. If there are a significant number of component expressions, this can put a larger overhead on the calculation engine than is necessary. There is a simple way to structure the module to lessen the demand on the calculation engine. You can separate the input lines in the reporting module by creating a line item for each of the components and adding the Total Profit formula as a separate line item. This way, changes to the source data only cause the relevant line item to recalculate. For example, a change in the Product Sales calculation only affects the Product Sales and the Total Profit line items in the Reporting module; Services Sales, Op EX, COGS and Rent & Utilities are unchanged. Similarly, a change in COGS only affects COGS and Total Profit in the Reporting module. Keep the general guidelines in mind. It is not practical to have every downstream formula broken out into individual line items. Plan to provide early exits from formulas Conditional formulas (IF/THEN) present a challenge for the model builder in terms of what is the optimal construction for the formula, without making it overly complicated and difficult to read or understand. The basic principle is to avoid making the calculation engine do more work than necessary. Try to set up the formula to finish the calculations as soon as possible. Always put first the condition that is most likely to occur. That way the calculation engine can quit the processing of the expression at the earliest opportunity. Here is an example that evaluates Seasonal Marketing Promotions: The summer promotion runs for three months and the winter promotion for two months. There are more months when there is no promotion, so this formula is not optimal and will take longer to calculate. This is better, as the formula will exit after the first condition more frequently. There is an even better way to do this. Following the principles from above, add another line item for no promotion. And then the formula can become: This is even better because the calculation for No Promo has already been calculated, and Summer Promo occurs more frequently than Winter Promo. It is not always clear which condition will occur more frequently than others, but here are a few more examples of how to optimize formulas: FINDITEM formula The Finditem element of a formula will work its way through the whole list looking for the text item, and if it does not find the referenced text, it will return blank. If the referenced text is blank, it will also return a blank. Inserting a conditional expression at the beginning of the formula keeps the calculation engine from being overtaxed. IF ISNOTBLANK(TEXT) THEN FINDITEM(LIST,TEXT) ELSE BLANK Or IF BLANK(TEXT) THEN BLANK ELSE FINDITEM(LIST,TEXT) Use the first expression if most of the referenced text contains data and the second expression if there are more blanks than data. LAG, OFFSET, POST, etc. If in some situations there is no need to lag or offset data, for example, if the lag or offset parameter is 0. The value of the calculation is the same as the period in question. Adding a conditional at the beginning of the formula will help eliminate unnecessary calculations: IF lag_parameter = 0 THEN 0 ELSE LAG(Lineitem, lag_parameter, 0) Or IF lag_parameter <> 0 THEN LAG(Lineitem, lag_parameter, 0) ELSE 0 The use of formula a or b will depend on the most likely occurrence of 0s in the lag parameter. Booleans Avoid adding unnecessary clutter for line items formatted as BOOLEANS. There is no need to include the TRUE or FALSE expression, as the condition will evaluate to TRUE or FALSE. Sales>0 Instead of IF Sales > 0 then TRUE ELSE FALSE
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Overview The Anaplan Optimizer aids business planning and decision making by solving complex problems involving millions of combinations quickly to provide a feasible solution. Optimization provides a solution for selected variables within your Anaplan model that matches your objective based on your defined constraints. The Anaplan model must be structured and formatted to enable Optimizer to produce the correct solution. You are welcome to read through the materials and watch the videos on this page, but Optimizer is a premium service offered by Anaplan (Contact your Account Executive if you don't see Optimizer as an action on the settings tab). This means that you will not be able to actually do the training exercises until the feature is turned on in your system. Training The training involves an exercise along with documentation and videos to help you complete it. The goal of the exercise is to setup the optimization exercise for two use cases; network optimization and production optimization. To assist you in this process we have created an optimization exercise guide document which will walk you through each of the steps. To further help we have created three videos you can reference: An exercise walk-through A demo of each use case A demo of setting up dynamic time Follow the order of the items listed below to assist with understanding how Anaplan's optimization process works: Watch the use case video which demos the Optimizer functionality in Anaplan Watch the exercise walkthrough video Review documentation about how Optimizer works within Anaplan Attempt the Optimizer exercise Download the exercise walkthrough document Download the Optimizer model into your workspace How to configure Dynamic Time within Optimizer Download the Dynamic Time document Watch the Dynamic Time video Attempt Network Optimization exercise Attempt Production Optimization exercise
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